RU2203932C1 - Method of preparing internal combustion engine motor oil additive complex and additive complex "lukoil" prepared by this method - Google Patents

Abstract

FIELD: lubricants. SUBSTANCE: additives for SF/CC and CD/SF (API classification) motor oils are prepared by consecutively adding to the first oil-diluent portion, at 40- 75 C and stirring, high-alkalinity calcium phenate, polyalkenylsuccinimide, and zinc dialkyl dithiophosphate, after which the second oil-diluent portion, highalkalinity calcium sulfonate, and ash-free phenol antioxidant are added. Additive complex contains, wt %: high-alkalinity calcium phenate 10-30, polyalkenylsuccinimide 20-40, zinc dialkyl dithiophosphate 20-30, highalkalinity calcium sulfonate 10-15, ashless phenol antioxidant 5-7, and mineral oil-diluent - the balance. Weight ratio of polyalkenylsuccinimide to zinc dialkyl dithiophosphate in the additive complex must be such that nitrogen-tozinc atomic ratio were 0.35-0.9, whereas weight ratio of high-alkalinity calcium sulfonate to ashless phenol antioxidant is (2-2.2): 1. EFFECT: improved working characteristics of motor oils. 3 cl, 5 tbl

Description

 The invention relates to the field of oil refining, and in particular to a method for preparing a package of additives for engine oils for internal combustion engines and a package of additives "LUKOIL" obtained by this method, and can be used for the production of engine oils for automotive vehicles of groups D1 / G2 and D (type SF / CC and type CD / SF according to API classification).

The practice of using lubricants has established that certain types of additives cannot provide high-quality motor oils that meet the requirements of modern engines. Therefore, to sufficiently improve the operational properties of motor oils is possible only by compounding additives of various types. Therefore, taking into account the functional action of various additives, as well as their synergism and antagonism, the industry began to develop additive packages that include two or more additives. Known additive package for motor oils for internal combustion engines, containing in wt.%: Calcium sulfonate 30-45, sulphated calcium phenate with an alkalinity of 140-250 mg KOH / g - 32-50, sulphurized alkyl phenol with alkyl C ₉ -C ₁₂ - 6-10, the zinc salt of dithiophosphoric acid esters - up to 100 [RU 2075504 C1, publ. 03/20/1997, class With 10 M 135/30]. The additive package according to the known solution is prepared by mixing the components at elevated temperature and constant stirring, while the order of introduction of additives is not regulated.

There is also known a method of preparing a package of additives to motor oils for internal combustion engines by mixing mineral diluent oil with additives of various types when heated and mixed [US 4981603 A, publ. 01/01/1991, class C 10 M 135/10]. According to this known method, additives are used a highly alkaline magnesium salt selected from the group consisting of sulfonate, phenate, salicylate, preferably magnesium sulfonate, and boron-containing or boron-free succinimide, and when preparing the additive package, all of these additives are first mixed with diluent oil, then the resulting the mixture is heated to 150-380 ^o F (68.6-193.3 ^o C) and incubated for 5 to 25 hours

The closest known solution to a similar problem in terms of technical nature and the achieved effect is a method of preparing a package of additives for motor oils for internal combustion engines and a package of additives "LUKOIL" obtained by this known method [RU 2147030 C1, publ. 03/27/2000, C 10 M 159/24]. According to a known method of preparing a package of additives, which use high-alkaline calcium sulfonate, high-alkaline calcium phenate, polyalkenylsuccinimide, zinc dialkyldithiophosphate and, if necessary, ashless phenolic antioxidant, is carried out by introducing into the diluent oil at a temperature of 40-75 ^o C and first mixing highly alkaline calcium sulfonate and highly alkaline calcium phenate, then sequentially polyalkenylsuccinimide and zinc dialkyldithiophosphate, stirring the mixture at 40-75 ^o C for e 0.5-1 h, subsequently, if necessary, add ashless phenolic antioxidant in an amount of not more than 10 wt.%. The LUKOIL additive package obtained by the above method has the following ratio of components, wt.%:
High alkaline calcium sulfonate - 10-22
High Alkaline Calcium Phenate - 20-33
Polyalkenylsuccinimide - 17-30
Zinc dialkyldithiophosphate - 15-30
Mineral Diluent Oil - Else
while polyalkenylsuccinimide and zinc dialkyl dithiophosphate are contained in a mass ratio that provides an atomic ratio of nitrogen to zinc of not more than 1, preferably 0.2-0.6. The additive package additionally contains ashless phenolic antioxidant in an amount of not more than 10 wt.%.

 The known method provides a package of additives to motor oils with high performance properties.

 The present invention is the creation of a package of additives to motor oils for internal combustion engines and the development of a method for its preparation, the use of which will increase the operational properties of motor oils by improving detergent-dispersing, antioxidant and other properties.

To solve this problem, the present method of preparing a package of additives by mixing mineral diluent oil, used in two equal portions, with additives - high-alkaline calcium sulfonate, high-alkaline calcium phenate, polyalkenylsuccinimide, zinc dialkyldithiophosphate and ashless phenolic antioxidant, at a temperature of 40-75 ^o C and stirring, while first, in the first portion of the diluent oil at 40-75 ^o C and stirring, high-alkaline calcium phenate, polyalkenyls uccinimide and zinc dialkyldithiophosphate, the mixture is stirred for 1 hour, then a second portion of diluent oil, highly alkaline calcium sulfonate and ashless phenolic antioxidant are added to the resulting mixture, followed by stirring of the mixture at 40-75 ^° C for 1 hour.

The LUKOIL additive package for engine oils for internal combustion engines obtained by this method contains high-alkaline calcium phenate, high-alkaline calcium sulfonate, polyalkenylsuccinimide, zinc dialkyldithiophosphate, ashless phenolic antioxidant and mineral diluent oil in the following mass ratio of components, wt.%:
High alkaline calcium phenate - 10-30
Polyalkenylsuccinimide - 20-40
Zinc dialkyldithiophosphate - 20-30
High alkaline calcium sulfonate - 10-15
Ashless Phenolic Antioxidant - 5-7
Mineral Diluent Oil - Else
while the mass ratio of the last two additives is (2-2.2): 1; the mass ratio of polyalkenylsuccinimide and zinc dialkyldithiophosphate provides an atomic ratio of nitrogen to zinc of not more than 1, preferably 0.35-0.9.

 The studies conducted by the authors showed that the operational properties of oils obtained using the additive package depend not only on the quality of the base oil and the additive package in the package, but also on the method of its production, in particular, the sequence of application and the ratio of additives in the package. This is due to the presence of synergism or antagonism between the individual additives included in the additive package.

 So, high-alkaline calcium sulfonate and ashless phenolic antioxidant, which are part of the additive package, have a pronounced tendency to interact, resulting in the formation of products that provide an increase in the neutralizing properties of the additive package.

 To obtain the above effect, it is necessary to follow a certain procedure for the introduction of components (additives) when preparing a package of additives. Initially, highly alkaline calcium phenate, polyalkenylsuccinimide and zinc dialkyldithiophosphate are sequentially introduced into the diluent oil, then this mixture is thoroughly mixed and only then a second portion of the diluent oil, highly alkaline calcium sulfonate and ashless phenolic antioxidant are introduced and all components of the additive package are mixed again. This sequence of the introduction of additives ensures the interaction of polyalkenylsuccinimide with zinc dialkyl dithiophosphate, eliminates the influence of highly alkaline calcium sulfonate on this process, and at the same time provides the possibility of direct interaction of the latter with an ashless phenolic antioxidant, which polyalkenylsuccinimide and zinc dialkyl dithiophosphate can no longer interfere with.

 The effectiveness of the products of the interaction of alkenyl succinimide and zinc dialkyldithiophosphate on the solubilizing ability and antioxidant properties of the oil largely depends on their ratio in the mixture (estimated by the atomic ratio of nitrogen to zinc, which should not exceed 1.0).

 The effect of the interaction between the highly alkaline calcium sulfonate and the ashless phenolic antioxidant on the neutralizing ability of the oil is evidenced by the data given in table. 1, from which it follows that the alkaline number of oil as a result of the interaction of the above additives exceeds the sum of the values of the corresponding indicator of the components of this mixture.

 In relation to the additive packages LUKOIL 8241 and LUKOIL 8241A, designed for motor oils of type SF / CC and CD / SF according to API (at a concentration of 6.8 and 8 wt.%, Respectively), the mass ratio of high alkaline calcium sulfonate and ashless phenolic antioxidant is (2 -2.2): 1.

 The additives included in the additive package according to the invention have the following characteristics.

 High-alkaline calcium phenate (domestic or imported product of Chevron, Adibis, Lubrizol and others, OLOA 219, ADX 402, LZ 6499 grades) is a calcium salt of sulphide alkyl phenol, has an alkalinity of 202-260 mg KOH / g, the calcium content of 8.0-10.0 wt.%, the active substance 40-50 wt.%.

 Polyalkenylsuccinimide (domestic or imported product of Chevron, Adibis, Lubrizol and others, OLOA 1200, LZ 894, S-5A grades) has an alkalinity of more than 20 mg KOH / g, nitrogen content 1.7-2.4 wt.%.

Dialkyl (C ₄ -C ₈ ) zinc dithiophosphate (domestic or imported product of Chevron, Lubrizol and others, brands DF-11, OLOA 267, LZ 1395) with a zinc content of 5.0-5.6 wt.% .

 High-alkaline calcium sulfonate (domestic or imported product of Lubrizol, Chevron, Mixoil and others, brands LZ 58, MX 3245, Paranokh 26 and others) is a calcium salt of alkylbenzenesulfonic acids, has an alkalinity of at least 280-320 mg KOH / g, contains calcium at least 11.0-13.0 wt.%, Active substance 25-30 wt.%.

 Ash-free antioxidant of phenolic type (domestic or imported product of Ethil, SIBA and others, brands NG-2246, Ethyl 702, Irganox L135, etc.).

 The following examples illustrate the present invention.

Example 1. 5 g (50% of the calculated amount) of the diluent oil — the distillate component II of the vacuum overhead — are loaded into the mixer, heated to a temperature of 60 ^{° C.,} and 92 g of highly alkaline calcium phenate and 147 g of polyalkenyl succinimide are subsequently loaded with stirring, stirring is continued for 1 hour Then, with stirring at the same temperature, 139.5 g of zinc dialkyldithiophosphate are fed. The mixture was stirred for 1 hour. A second portion of 5 g of diluent oil, 73.5 g of highly alkaline calcium sulfonate and 37 g of ashless antioxidant is added to the resulting mixture. The resulting mixture was stirred at a temperature of 60 ^o C for 1 hour. 500 g of additive package are obtained.

 The characteristics of LUKOIL 8241 and LUKOIL 8241A additive packages are given in Table 2.

 In the table. Figure 3 shows the results of the evaluation of the antioxidant properties of oils prepared with LUKOIL 8241 and LUKOIL 8241A bags and commercial oils containing imported bags (Lubrizol and Shell companies). As can be seen from Table 3, when using LUKOIL additive packages obtained in this way and imported packages, almost the same level of properties is achieved.

 Along with this, oils obtained using LUKOIL additive packages were also tested on a D-245 tractor diesel engine to evaluate their washing properties. From the data presented in table 4, it can be seen that universal thickened engine oils with additive packages LUKOIL 8241 and LUKOIL 8241A obtained according to the invention have high detergent properties higher than with additive packages LUKOIL 8141 and LUKOIL 8141A obtained by the method according to the closest known solution, and for this indicator correspond to existing standards for oils of groups G and D, respectively.

 The above packages allow you to get universal thickened oils such as SF / CC and CD / SF, which, along with use in diesel engines, can be used in gasoline engines, which is well illustrated by the test data of SAE 15W-30 (SF / CC) oil on a VAZ 2106 engine and installation NAMI-1m presented in table 5.

Claims (3)

1. A method of preparing a package of additives for engine oils for internal combustion engines by mixing mineral diluent oil with additives, which are used as a highly alkaline calcium sulfonate, high alkaline calcium phenate, polyalkenylsuccinimide, zinc dialkyldithiophosphate and ashless phenolic antioxidant at a temperature of 40-75 ^o C and stirring, characterized in that the oil diluent used in two equal portions and the first portion of the first at 40-75 ^o C and stirring administered sequentially overbased nd calcium phenate, polialkenilsuktsinimid dialkyldithiophosphate and zinc, the mixture was stirred for 1 hour, then the resulting mixture was added a second portion of diluent oil, overbased calcium sulfonate and a phenolic ashless antioxidant, followed by stirring at 40-75 ^o C for 1 hour.  2. A package of additives for motor oils for internal combustion engines containing high-alkaline calcium sulfonate, high-alkaline calcium phenate, polyalkenylsuccinimide, zinc dialkyldithiophosphate and ash-free phenolic antioxidant and mineral diluent oil, characterized in that it is obtained by the method according to p. 1. 3. The additive package according to claim 2, characterized in that it has the following ratio of components in the package, wt. %:
High alkaline calcium phenate - 10-30
Polyalkenylsuccinimide - 20-40
Zinc dialkyldithiophosphate - 20-30
High alkaline calcium sulfonate - 10-15
Ashless Phenolic Antioxidant - 5-7
Mineral Diluent Oil - Else
the mass ratio of high alkaline calcium sulfonate to the ashless phenolic antioxidant is 2-2.2: 1 and the mass ratio of polyalkenylsuccinimide and zinc dialkyldithiophosphate provides an atomic ratio of nitrogen to zinc of not more than 1, preferably 0.35-0.9.

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